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author | Aaron LI <aly@aaronly.me> | 2017-10-12 16:43:26 +0800 |
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committer | Aaron LI <aly@aaronly.me> | 2017-10-12 16:43:26 +0800 |
commit | 9d719d212770d81b522e2a480fbc75f52a0891ee (patch) | |
tree | ce68d723d2925f5cb8f5736e0557c0d141669161 /fg21sim/extragalactic | |
parent | c3d3d396dcf9cf86682089dd972f56643373f6b3 (diff) | |
download | fg21sim-9d719d212770d81b522e2a480fbc75f52a0891ee.tar.bz2 |
clusters/solver.py: significantly improve fix_boundary()
Also suggest that ``buffer_np`` be specified to 5%-10% of ``x_np``.
Diffstat (limited to 'fg21sim/extragalactic')
-rw-r--r-- | fg21sim/extragalactic/clusters/solver.py | 40 |
1 files changed, 30 insertions, 10 deletions
diff --git a/fg21sim/extragalactic/clusters/solver.py b/fg21sim/extragalactic/clusters/solver.py index da6b4d4..f7724dd 100644 --- a/fg21sim/extragalactic/clusters/solver.py +++ b/fg21sim/extragalactic/clusters/solver.py @@ -104,6 +104,7 @@ class FokkerPlanckSolver: boundary. The densities within this buffer region will be replaced by extrapolating an power law to avoid unphysical accumulations. This fix is ignored if this parameter is not specified. + (This parameter is suggested to be about 5%-10% of ``x_np``.) NOTE ---- @@ -332,7 +333,11 @@ class FokkerPlanckSolver: is determined by fitting to the data points of ``self.buffer_np`` cells on the upper side of the buffer region. - TODO: also fix the upper boundary in the same way? + NOTE + ---- + * Also fix the upper boundary in the same way. + * Fix the boundaries only when the particles are piling up at the + boundaries. References: Ref.[donnert2014],Sec.(3.3) """ @@ -343,15 +348,30 @@ class FokkerPlanckSolver: return uc x = self.x - # Calculate the power-law index for ``self.buffer_np`` from data - # points just right of the buffer region. - xp = x[self.buffer_np:(self.buffer_np*2)] - yp = uc[self.buffer_np:(self.buffer_np*2)] - # Power-law fit - pfit = np.polyfit(np.log10(xp), np.log10(yp), deg=1) - xbuf = x[:self.buffer_np] - ybuf = 10 ** np.polyval(pfit, np.log10(xbuf)) - uc[:self.buffer_np] = ybuf + # Lower boundary + ybuf = uc[:self.buffer_np] + if ybuf[0] > ybuf[1]: + # Particles are piling up at the lower boundary, to fix it... + # + # Power-law fit + xp = x[self.buffer_np:(self.buffer_np*2)] + yp = uc[self.buffer_np:(self.buffer_np*2)] + pfit = np.polyfit(np.log(xp), np.log(yp), deg=1) + xbuf = x[:self.buffer_np] + ybuf = np.exp(np.polyval(pfit, np.log(xbuf))) + uc[:self.buffer_np] = ybuf + + # Upper boundary + ybuf = uc[(-self.buffer_np):] + if ybuf[-1] > ybuf[-2]: + # Particles are piling up at the upper boundary, to fix it... + xp = x[(-self.buffer_np*2):(-self.buffer_np)] + yp = uc[(-self.buffer_np*2):(-self.buffer_np)] + pfit = np.polyfit(np.log(xp), np.log(yp), deg=1) + xbuf = x[(-self.buffer_np):] + ybuf = np.exp(np.polyval(pfit, np.log(xbuf))) + uc[(-self.buffer_np):] = ybuf + return uc def time_step(self): |